CN216577630U - Laminating equipment - Google Patents

Abstract

The utility model discloses laminating equipment which comprises an engine body, a material placing device, a turntable device, a material passing plate, a material sucking and conveying device, a pressing device and a material receiving device, wherein the material placing device, the turntable device, the material passing plate, the material sucking and conveying device, the pressing device and the material receiving device are arranged on the engine body; the discharging device is configured to discharge the porous die-cut material belt; the material passing plate is configured to support and position the porous die cutting material belt; the turntable device is configured to place a workpiece to be attached; the material sucking and conveying device is configured to suck the workpiece to be attached on the rotary disc device and convey the workpiece to the porous die cutting belt on the material passing plate; the pressing device is configured to perform pressing, so that the workpiece to be attached is attached to the porous die-cutting material belt, and a finished material belt is obtained; the material receiving device is configured to roll the finished material belt. The laminating equipment disclosed by the utility model realizes automation of feeding, discharging, material sucking, conveying and pressing, is convenient for realizing automatic production, is suitable for laminating of porous die-cutting material belt products, greatly improves the laminating precision, effectively improves the product quality, and obviously improves the production efficiency and the product yield.

Description

Laminating equipment

Technical Field

The utility model relates to the field of laminating mechanical equipment, in particular to laminating equipment.

Background

In the industry, technology is developed day by day, upgrading and upgrading are frequent, and a large number of new products are launched almost every month, which becomes a hot spot field of product design.

The traditional die cutting is a cutting process for the post processing of printed matters, and the die cutting process can manufacture printed matters or other paper products into a die cutting knife plate according to a pre-designed pattern for cutting, so that the shapes of the printed matters are not limited to straight edges and right angles any more. The traditional die cutting production is a forming process that a die cutting cutter is combined into a die cutting plate according to patterns required by product design, and a printed matter or other platy blanks are rolled and cut into required shapes or cutting marks under the action of pressure.

The production and manufacture of die-cut products is often performed on equipment such as flat-bed die-cutting machines, laminating machines and circular knife machines, which often require as many as tens of auxiliary rolls in the manufacture of the products.

At present, in order to realize the combination between single independent work piece and the cross cutting material area, can use the laminating process to realize among a lot of cross cutting technologies, however current rigging machine is only applicable to the laminating of the great slice of volume or cubic product, then does not have corresponding laminating device to porous cross cutting material area product, can't satisfy automatic production demand.

SUMMERY OF THE UTILITY MODEL

It is an object of the present invention to provide a laminating apparatus that solves at least one of the above problems.

According to one aspect of the utility model, the laminating equipment comprises a machine body, and a material discharging device, a turntable device, a material passing plate, a material sucking and conveying device, a pressing device and a material receiving device which are arranged on the machine body;

the feeding device, the material passing plate, the pressing device and the material receiving device are sequentially arranged along the conveying direction of the material belt, the rotary table device is arranged on one side of the material passing plate, and the material sucking and conveying device can move between the rotary table device and the material passing plate;

the discharging device is configured to discharge the porous die-cut material belt;

the material passing plate is configured to support and position the porous die-cutting material belt;

the turntable device is configured to place a workpiece to be attached;

the material sucking and conveying device is configured to suck the workpiece to be attached on the rotating disc device and convey the workpiece to the porous die cutting belt on the material passing plate;

the pressing device is configured to press the materials on the material passing plate, so that the workpiece to be attached is attached to the porous die-cutting material belt, and a finished material belt is obtained;

the material receiving device is configured to roll the finished material belt.

Therefore, the utility model provides a bonding device with a brand new structure, which has the following working principle:

a. the feeding device unreels a porous die-cutting material belt, and the material belt is conveyed to a material passing plate through a pulling material;

b. the material sucking and conveying device works to suck the workpiece to be attached on the rotary table device and then is attached to the porous die cutting belt on the material passing plate;

c. the material belt is conveyed to a pressing station at the tail end of the material passing plate through pulling;

d. the pressing device works, and the workpiece to be attached is pressed on the porous die-cutting material belt to form a finished material belt;

e. and the material receiving device works to roll the finished material belt.

Therefore, the laminating equipment disclosed by the utility model realizes automation of feeding, discharging, material sucking, conveying and pressing, is convenient for realizing automatic production, is suitable for laminating of porous die-cut material belt products, greatly improves the laminating precision, effectively improves the product quality, and obviously improves the production efficiency and the product yield.

In some embodiments, the suction conveying device comprises a suction mechanism and a multi-shaft driving mechanism, the multi-shaft driving mechanism is mounted on the machine body, the suction mechanism is mounted on the multi-shaft driving mechanism, the suction mechanism comprises a first mounting frame mounted on the multi-shaft driving mechanism and a plurality of suction heads mounted on the first mounting frame and matched with a workpiece to be attached, and the suction heads are arranged at intervals. In this way,

in some embodiments, the suction conveying device further comprises a visual detection mechanism, the visual detection mechanism is installed on one side of the turntable device and located below the suction mechanism, and the visual detection mechanism is matched with the suction mechanism and used for identifying and positioning the workpiece to be attached, which is sucked by the suction mechanism. From this, visual detection mechanism can treat the laminating work piece and fix a position the discernment when inhaling material mechanism absorption and treating the laminating work piece, is convenient for inhale material conveyor's accurate unloading of going up, improves subsequent pressfitting efficiency and precision.

In some embodiments, the turntable device is used for holding a material tray for bearing a workpiece to be attached, the turntable device comprises a turntable, a driving module for driving the turntable to rotate, and a plurality of limiting blocks arranged on the turntable and in limiting fit with the material tray, and the driving module is arranged below the turntable and is in power connection with the turntable. Therefore, the turntable device adopts the driving module to servo and drive accurate feeding, and can feed materials alternately so as to facilitate manual disc replacement.

In some embodiments, a plurality of positioning blocks are arranged on the left side and the right side of the porous die-cutting material belt on the material passing plate, and the positioning blocks on each side are sequentially arranged at intervals along the length direction of the material passing plate and are matched with the porous die-cutting material belt.

In some embodiments, the pressing device includes a second mounting frame, a first driving member and a pressing plate, the second mounting frame is mounted at the end of the material passing plate, the first driving member is mounted at the second mounting frame, and the pressing plate is mounted at the driving end of the first driving member and is matched with the porous die-cutting material belt on the material passing plate. Therefore, under the driving of the first driving piece, the pressing plate can downwards press the workpiece to be attached to the porous die-cutting material belt, so that the workpiece to be attached is attached to the porous die-cutting material belt.

In some embodiments, the laminating device further comprises a guide device, wherein the guide device is arranged between the discharging device and the material passing plate and configured to guide the porous die-cutting material belt after being unwound by the discharging device. From this, compact structure can cooperate the blowing device to realize orderly blowing to the accurate direction in material area.

In some embodiments, the laminating device further comprises a material pulling device, and the material pulling device is arranged between the material passing plate and the material receiving device.

The utility model has the beneficial effects that:

the laminating equipment disclosed by the utility model realizes automation of feeding, discharging, material sucking, conveying and pressing, is convenient for realizing automatic production, is suitable for laminating of porous die-cutting material belt products, greatly improves the laminating precision, effectively improves the product quality, and obviously improves the production efficiency and the product yield.

Drawings

Fig. 1 is a schematic perspective view of a bonding apparatus according to an embodiment of the present invention;

fig. 2 is a schematic view of the attaching device shown in fig. 1 with a structure of a part omitted;

fig. 3 is a schematic perspective view of a turntable device of the laminating apparatus shown in fig. 1;

FIG. 4 is a schematic perspective view of a material passing plate of the laminating apparatus shown in FIG. 1;

fig. 5 is a schematic perspective view of a suction conveying device of the laminating apparatus shown in fig. 1;

fig. 6 is a schematic perspective view of a pressing device of the laminating apparatus shown in fig. 1.

Reference numerals in fig. 1 to 6: 1-body; 2-a material discharging device; 3-a turntable device; 4-passing a material plate; 5-a material sucking and conveying device; 6-a pressing device; 7-a material receiving device; 8-a guiding device; 9-pulling the material device; 31-a turntable; 32-a drive module; 33-a limiting block; 41-a positioning block; 51-a material sucking mechanism; 52-a multi-axis drive mechanism; 53-visual detection mechanism; 61-a second mounting frame; 62-a first drive member; 63-pressing plate; 100-a workpiece to be attached; 200-porous die-cut material belt; 300-material disc; 511-a first mounting frame; 512-suction head.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Fig. 1 to 6 schematically show a bonding apparatus according to an embodiment of the present invention.

As shown in fig. 1 to 6, the attaching device includes a machine body 1, and a material placing device 2, a turntable device 3, a material passing plate 4, a material sucking and conveying device 5, a pressing device 6 and a material receiving device 7 which are arranged on the machine body 1.

The feeding device 2, the material passing plate 4, the pressing device 6 and the material receiving device 7 are sequentially arranged along the conveying direction of the material belt. The rotary table device 3 is arranged on one side of the material passing plate 4, and the material sucking and conveying device 5 can move between the rotary table device 3 and the material passing plate 4.

The discharging device 2 is configured to discharge the porous die-cut material belt 200;

the material passing plate 4 is configured to support and position the porous die-cutting material belt 200;

the turntable device 3 is configured to place a workpiece 100 to be attached;

the suction conveying device 5 is configured to suck the workpiece 100 to be attached on the rotary disc device 3 and convey the workpiece to be attached to the porous die-cutting material belt 200 on the material passing plate 4;

the pressing device 6 is configured to press the materials on the material passing plate 4, so that the workpiece 100 to be attached is attached to the porous die-cutting material belt 200 to obtain a finished material belt;

the material receiving device 7 is configured to roll the finished material belt.

As shown in fig. 3, the turntable device 3 of the present embodiment is used for accommodating a tray 300 carrying a workpiece 100 to be bonded, the turntable device 3 includes a turntable 31, a driving module 32 for driving the turntable 31 to rotate, and a plurality of limit blocks 33 disposed on the turntable 31 and in limit fit with the tray 300, and the driving module 32 is disposed below the turntable 31 and in power connection with the turntable 31. The driving module 32 of the present embodiment may be a rotary driving combination structure for driving the turntable 31 to rotate, such as a rotary motor and a speed reducer. Thus, the turntable device 3 uses the driving module 32 to servo-drive the precise feeding, and the feeding can be alternated to manually exchange the discs.

As shown in fig. 4, the perforated die-cutting tape 200 on the material passing plate 4 of the present embodiment is provided with a plurality of positioning blocks 41 on both left and right sides, and the plurality of positioning blocks 41 on each side are sequentially arranged at intervals along the length direction of the material passing plate 4 and are matched with the perforated die-cutting tape 200.

As shown in fig. 5, the suction conveying device 5 of the present embodiment includes a suction mechanism 51 and a multi-axis driving mechanism 52, the multi-axis driving mechanism 52 is mounted on the machine body 1, the suction mechanism 51 is mounted on the multi-axis driving mechanism 52, the suction mechanism 51 includes a first mounting frame 511 mounted on the multi-axis driving mechanism 52 and a plurality of suction heads 512 mounted on the first mounting frame 511 and engaged with the workpiece 100 to be attached, and the plurality of suction heads 512 are arranged at intervals. The suction head 512 of the present embodiment may be a suction nozzle, and is formed by an external air valve and the like. The multi-axis driving mechanism 52 of the present embodiment may be a three-axis driving structure, and specifically may be composed of the linear driving module 32, a linear guide, a slider, and the like.

The material sucking and conveying device 5 further comprises a visual detection mechanism 53, the visual detection mechanism 53 is installed on one side of the turntable device 3 and located below the material sucking mechanism 51, and the visual detection mechanism 53 is matched with the material sucking mechanism 51 and used for identifying and positioning the workpiece 100 to be attached, which is sucked by the material sucking mechanism 51. From this, visual detection mechanism 53 can treat laminating work piece 100 and fix a position the discernment when inhaling material mechanism 51 and absorbing and treating laminating work piece 100, is convenient for inhale material conveyor 5's accurate unloading of going up, improves subsequent pressfitting efficiency and precision. The first driving member 62 of the present embodiment may be a telescopic cylinder. The first detection mechanism of the present embodiment may be a CCD vision detection module, and may specifically include components such as a CCD camera and a light source.

As shown in fig. 6, the pressing device 6 includes a second mounting frame 61, a first driving member 62 and a pressing plate 63, the second mounting frame 61 is mounted at the end of the material passing plate 4, the first driving member 62 is mounted at the second mounting frame 61, and the pressing plate 63 is mounted at the driving end of the first driving member 62 and cooperates with the perforated die-cutting material tape 200 on the material passing plate 4. Therefore, under the driving of the first driving member 62, the pressing plate 63 can press the workpiece 100 to be attached onto the porous die-cutting material tape 200 downward, so that the workpiece 100 to be attached and the porous die-cutting material tape 200 are attached.

The attaching device of the embodiment further comprises a guide device 8 and a pulling device 9. The guide device 8 is arranged between the discharging device 2 and the material passing plate 4 and configured to guide the porous die-cut material belt 200 discharged by the discharging device 2. The guiding device 8 can be composed of a guiding plate, a roller and the like. From this, compact structure can cooperate blowing device 2 to realize orderly blowing to accurate direction is taken to the material.

The laminating equipment further comprises a material pulling device 9, and the material pulling device 9 is arranged between the material passing plate 4 and the material receiving device 7. The pulling device 9 of the present embodiment may be a commonly used pulling device in the market.

The working principle of the laminating equipment is as follows:

a. the discharging device 2 discharges a porous die-cutting material belt 200, and the material belt is conveyed to the material passing plate 4 through material pulling;

b. the material sucking and conveying device 5 works to suck the workpiece 100 to be attached on the rotary table device 3 and then is attached to the porous die-cutting material belt 200 on the material passing plate 4;

c. the material belt is conveyed to a pressing station at the tail end of the material passing plate 4 through pulling;

d. the pressing device 6 works to press the workpiece 100 to be laminated on the porous die-cutting material belt 200 to form a finished material belt;

e. the material receiving device 7 works to wind the finished material belt.

Therefore, the laminating equipment disclosed by the utility model realizes automation of feeding, discharging, material sucking, conveying and pressing, is convenient for realizing automatic production, is suitable for laminating of porous die-cut material belt products, greatly improves the laminating precision, effectively improves the product quality, and obviously improves the production efficiency and the product yield.

What has been described above are merely some embodiments of the present invention. It will be apparent to those skilled in the art that various changes and modifications can be made without departing from the inventive concept thereof, and these changes and modifications can be made without departing from the spirit and scope of the utility model.

Claims (8)

1. The laminating equipment is characterized by comprising an engine body (1), and a material placing device (2), a turntable device (3), a material passing plate (4), a material sucking and conveying device (5), a pressing device (6) and a material receiving device (7) which are arranged on the engine body (1);

the feeding device (2), the material passing plate (4), the pressing device (6) and the material receiving device (7) are sequentially arranged along the conveying direction of the material belt, the turntable device (3) is arranged on one side of the material passing plate (4), and the material sucking and conveying device (5) can move between the turntable device (3) and the material passing plate (4);

the discharging device (2) is configured to discharge the porous die-cut material belt (200);

the material passing plate (4) is configured to support and position the porous die-cutting material belt (200);

the turntable device (3) is configured to place a workpiece (100) to be attached;

the material sucking and conveying device (5) is configured to suck the workpiece (100) to be attached on the turntable device (3) and convey the workpiece to the porous die cutting material belt (200) on the material passing plate (4);

the pressing device (6) is configured to press the materials on the material passing plate (4) so that the workpiece (100) to be attached is attached to the porous die-cut material belt (200) to obtain a finished material belt;

the material receiving device (7) is configured to roll the finished material belt.

2. The laminating apparatus according to claim 1, wherein the suction conveying device (5) comprises a suction mechanism (51) and a multi-axis driving mechanism (52), the multi-axis driving mechanism (52) is installed on the machine body (1), the suction mechanism (51) is installed on the multi-axis driving mechanism (52), the suction mechanism (51) comprises a first mounting frame (511) installed on the multi-axis driving mechanism (52) and a plurality of suction heads (512) installed on the first mounting frame (511) and matched with the workpiece (100) to be laminated, and the plurality of suction heads (512) are arranged at intervals.

3. The laminating apparatus according to claim 2, wherein said suction conveyor (5) further comprises a visual inspection mechanism (53), said visual inspection mechanism (53) is installed at one side of the turntable (31) device (3) and located below said suction mechanism (51), said visual inspection mechanism (53) is matched with said suction mechanism (51) for identifying and positioning the workpiece (100) to be laminated sucked by said suction mechanism (51).

4. The laminating apparatus according to claim 1, wherein the turntable device (3) is used for holding a tray (300) carrying the workpiece (100) to be laminated, the turntable device (3) comprises a turntable (31), a driving module (32) for driving the turntable (31) to rotate, and a plurality of limit blocks (33) arranged on the turntable (31) and in limit fit with the tray (300), and the driving module (32) is arranged below the turntable (31) and in power connection with the turntable (31).

5. The laminating device according to claim 1, wherein a plurality of positioning blocks (41) are arranged on the left side and the right side of the porous die-cutting material belt (200) on the material passing plate (4), and the plurality of positioning blocks (41) on each side are sequentially arranged at intervals along the length direction of the material passing plate (4) and are matched with the porous die-cutting material belt (200).

6. The laminating apparatus according to claim 1, wherein the pressing device (6) comprises a second mounting frame (61), a first driving member (62) and a pressing plate (63), the second mounting frame (61) is mounted at the end of the material passing plate (4), the first driving member (62) is mounted at the second mounting frame (61), and the pressing plate (63) is mounted at the driving end of the first driving member (62) and is matched with the porous die-cutting material belt (200) on the material passing plate (4).

7. The laminating device according to any one of claims 1 to 6, further comprising a guiding device (8), wherein the guiding device (8) is disposed between the discharging device (2) and the material passing plate (4) and configured to guide the porous die-cutting material tape (200) unwound by the discharging device (2).

8. The laminating equipment according to any one of claims 1 to 6, further comprising a pulling device (9), wherein the pulling device (9) is arranged between the material passing plate (4) and the material receiving device (7).

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